The Role of Protein S-glutathionylation on Ca2+ Signaling in Cultured Aortic Endothelial Cells

Lock, Jeffrey T.

08 March 2013

No description available.

Physiology

Calcium signaling

Oxidative Stress

Glutathionylation

Diamide

IP3 receptor

Calcium oscillations

Comparative Characterization of the Major Human Glutaredoxin Isozymes and Identification of a Mechanism by which Grx1 Regulates Apoptosis in Cardiomyocytes

Gallogly, Molly Megan

13 October 2009

No description available.

Pharmacology

glutaredoxin

glutathionylation

oxidative stress

redox signaling

apoptosis

Bcl-xL

Bcl-2

cardiomyocyte

Glutaredoxin-1 As A Therapeutic Target In Neurodegenerative Inflammation

Miller, Olga Gorelenkova

05 June 2017

No description available.

Pharmacology

Biology

sulfhydryl

inflammation

neurodegeneration

neuroinflammation

S-glutathionylation

Parkinsons disease

redox

enzymology

glutaredoxin

microglia

Construction et analyse de mutants de la machinerie de photoproduction d'hydrogène chez la cyanobactérie modèle Synechocystis / Construction and analysis of mutants of the hydrogen photoproduction machine in the model cyanobacterium Synechocystis

Ortega-Ramos, Marcia

13 January 2014

Les microorganismes photosynthétiques suscitent un intérêt biotechnologique grandissant pour la production de dihydrogène (H₂) à partir d'eau et d'énergie solaire en préservant l'eau douce et les terres cultivables sans ajout d'engrais. La cyanobactérie modèle Synechocystis PCC 6803 est capable de produire du H₂ de manière faible et transitoire grâce à une hydrogénase [NiFe] bidirectionnelle Hox. Cette enzyme possède 5 sous-unités protéiques (HoxEFUYH) qui catalysent la réaction réversible : 2H⁺ + 2e⁻ ↔ H₂. Le site actif [NiFe] de cette enzyme est assemblé par un complexe de six protéines HypABCDEF. L’hydrogénase est ensuite maturée par une protéase HoxW qui clive la sous-unité HoxH et active le site catalytique [NiFe]. L’ingénierie de cyanobactéries pour la photoproduction biologique d’H₂ passe par une meilleure compréhension du rôle de l'hydrogénase dans le métabolisme cyanobactérien. Au cours de ma thèse, j’ai construit et analysé 7 mutants sophistiqués de Synechocystis permettant la surexpression simultanée (constitutive ou régulée par la température de croissance) des gènes hoxEFUYHW et hypABCDEF. On a ainsi montré que la surproduction simultanée des protéines HoxEFUYHW et HypABCDEF combinée à une augmentation de la disponibilité de nickel dans le milieu conduit à une augmentation de l’activité hydrogénase d’un facteur 20. D’autre part, un mutant dépourvu de l'opéron hoxEFUYH a permis également de montrer que l'hydrogénase n'est pas indispensable à la croissance dans les conditions photoautotrophiques standard. La comparaison des phénotypes des divers mutants construits durant ce travail a permis également de montrer pour la première fois que l’hydrogénase joue un rôle dans la défense cellulaire contre le stress oxydant induit par le H₂O₂, par la présence de glucose ou de glycérol dans le milieu de culture. Par ailleurs, j'ai participé à la caractérisation d'un nouveau régulateur de l'expression de l’hydrogénase. Ce facteur de transcription (AbrB2) qui réprime l’opéron hoxEFUYH est impliqué dans la tolérance au stress induit par le diamide ou le nickel. Un contrôle redox de l'activité de ce régulateur par une modification post-traductionnelle de glutathionylation a été mise en évidence pour la première fois chez les cyanobactéries. L'ensemble de ces résultats démontre que l’on doit combiner plusieurs stratégies génétiques et physiologiques pour augmenter fortement la production d’hydrogène chez Synechocystis, et que nos mutants sont des outils très importants vers cet objectif. / Photosynthetic organisms are attractive organisms for hydrogen production using water and solar energy, while preserving fresh water and arable soils without adding fertilizers. The model cyanobacterium Synechocystis PCC 6803 produces small and transitory amounts of H₂ thanks to its bidirectional [NiFe] hydrogenase Hox. The Hox complex with its 5 protein subunits (HoxEFUYH) catalyzes the reversible reaction 2H⁺ + 2e⁻ ↔ H₂. The [NiFe] catalytic site of the Hox enzyme is assembled using a six-subunits HypABCDEF complex and matured by the HoxW protease that cleaves HoxH and activates its [NiFe]-containing center. Engineering cyanobacteria for hydrogen production relies on a better understanding of the role of hydrogenase in the cyanobacterium metabolism. During my PhD, I have constructed and analyzed 7 sophisticated mutants of Synechocystis, allowing the simultaneous over-expression (constitutive or regulated by the growth temperature) of the hoxEFUYH and hypABCDEF genes. We demonstrated that the simultaneous over-production of the HoxEFUYH and HypABCDEF proteins, combined to an increase in nickel availability led to an approximately 20-fold increase of the active hydrogenase level. Moreover, using a deleted hox-operon mutant we showed that hydrogenase is dispensable in standard phototrophic growth conditions. Comparing the phenotypes of different mutants constructed in this study enables us to demonstrate for the first time that the hydrogenase operates in cell protection against oxidative stress (H₂O₂) and sugar stress (glucose or glycerol). Besides, I have also participated to the characterization of a new regulator (AbrB2) of the expression of the hydrogenase. This transcription factor represses the hoxEFUYH operon and is involved in the tolerance to stress induced by diamide or nickel. For the first time in cyanobacteria, a redox control of the activity of this regulator by a post-translational gluthathionylation was identified. Collectively, our findings showed that several genetic and physiological strategies should be combined in a single strain to strongly increase hydrogen production in Synechocystis. Meanwhile the presently constructed mutants proved to be very powerful tools to achieve this goal.

Cyanobactérie

Synechocystis sp. PCC 6803

Hydrogène

Hydrogénase

Photoproduction

Régulation

AbrB

Biocarburants

Bioénergies

Glutathionylation

Stress oxydant

Stress glycolitique

Cyanobacteria

Synechocystis PCC 6803

Hydrogen

Hydrogenase

Photoproduction

Regulation

AbrB

Biofuels

Bioenergy

Glutathionylation

Oxidative stress

Sugar stress

T cell responses to S-glutathionylated And heteroclitic viral epitopes and CCl2-mediated immune dysregulation in mice infected with a neurotropic coronavirus

Trujillo, Jonathan Anthony

01 May 2014

Mice infected with neurotropic variants of the murine coronavirus, mouse hepatitis virus, (strains JHMV or J2.2–V–1) develop acute and chronic CNS infections, and provide a model system to study the pathogenesis of virus–induced neuroinflammation, mechanisms of virus persistence, and anti–viral immune responses in the CNS. Using the J2.2–V–1 model of CNS infection, we addressed the role of sustained CCL2 production during viral infection using mice in which CCL2 was expressed transgenically in oligodendrocytes. Tonic CCL2 expression in the CNS resulted in delayed kinetics of virus clearance, and converted what is typically a mild, nonlethal disease to acutely lethal encephalitis, with the majority of mice succumbing to the infection. CCL2 induced a rapid and dysregulated inflammatory response that was no longer protective and was unable to efficiently clear virus from the CNS. Infected CCL2 Tg mice had increased numbers of Foxp3–expressing CD4 T cells (Tregs) and of macrophages and microglia expressing elevated levels of YM–1, a marker for alternatively activated macrophages, and nitric oxide. Our results showed that CCL2 has effects beyond serving as a chemoattractant for leukocytes, and has effects on the composition and function of inflammatory cells at sites of infection. In a separate set of experiments, I identified and characterized two additional heteroclitic variants of the JHMV epitope S598 that induced CD8 T cells with greater antigen sensitivity to the native S598 determinant relative to the cells primed by the native epitope. One of these heteroclitic epitopes elicited a T cell response with nearly complete cross–reactivity towards the native peptide. The structural data show that these heteroclitic epitopes induced modest conformational changes in the local environment of the peptide–MHCI complex. I also provide data to support the notion that heteroclitic determinants augment functional avidity by increasing surface epitope density. Collectively, these data will help guide the design of heteroclitic epitopes in the setting of vaccine development. Lastly, I examined the consequences of oxidative stress induced by viral infection on antigen presentation. The brains of JHMV–infected mice were found to have signs of oxidative stress, with significantly decreased ratios of reduced (GSH) to oxidized (GSSG) glutathione, suggesting that there is an environment that is conducive for cysteine modification with oxidized glutathione. We found that virus–induced oxidative stress resulted in the presentation of both native and S–glutathionylated forms of the JHMV epitope S510 by infected cells. A subset of the S510–specific CD8 T cells failed to recognize the modified form of the epitope, suggesting that GSH–modification of a cysteine–containing viral epitope might interfere with T cell recognition. Further, GSH-modified peptides were identified in stressed human cells, including herpes virus–transformed B cells, suggesting that the modification is not limited to mouse cells. Collectively these findings have implications for both anti–viral immunity and anti–tumor immunity, where oxidative stress has been shown to play a role during infection and tumorgenesis.

Antigen presentation

Chemokine (C-C motif) ligand 2

Coronavirus infection

Glutathionylation

Heteroclitic epitope

Mouse Hepatitis Virus-JHM

Immunology of Infectious Disease

Proteomic and biochemical analysis of nitrosylation and glutathionylation in the photosynthetic organism Chlamydomonas reinhardtii / Analyse protéomique et biochimique de la nitrosylation et glutathionylation chez l'organisme photosynthétique Chlamydomonas reinhardtii

Morisse, Samuel

26 September 2014

Acteurs des mécanismes moléculaires de signalisation cellulaire, les espèces réactives de l'oxygène (ROS) et les espèces réactives de l'azote (RNS) agissent comme des molécules signal transférant des informations extracellulaires ou intracellulaires et induisant des réponses spécifiques. Les ROS/RNS agissent principalement via un ensemble de modifications post-traductionnelles réversibles des résidus thiols sur les protéines parmi lesquelles la nitrosylation et la glutathionylation apparaissent comme des éléments jouant un rôle important dans de nombreux processus cellulaires fondamentaux et impliqués dans nombre de maladies humaines. Bien que présents chez les organismes photosynthétiques, ces modifications ont été moins étudiées. Mon projet était d'étudier, in vivo, chez l'algue Chlamydomonas reinhardtii, la dynamique de la nitrosylation et de la glutathionylation, en utilisant une combinaison d'approches multidisciplinaires incluant protéomique, biochimie et biologie moléculaire. En réponse au stress nitrosatif, 492 protéines S-nitrosylées in vivo et 392 sites de nitrosylation ont été identifiés par spectrométrie de masse. Ces protéines participent à un large éventail de processus biologiques tels que la photosynthèse et la réponse au stress. Avec une stratégie similaire, l’analyse de la glutathionylation en réponse à des stresses physiologiques de forte lumière et de choc thermique, a révélé des voies spécifiques de réponse au stress. En parallèle, la dépendance redox des mécanismes moléculaires sous-jacents a été examinée pour la GAPDH cytoplasmique et l’isocitrate lyase, mais aussi la triosephosphate isomérase et la phosphoglycérate kinase chloroplastiques. / Actors of the molecular mechanism of cell signaling, reactive oxygen species (ROS) and reactive nitrogen species (RNS) act as signaling molecules to transfer extracellular or intracellular information and elicit specific responses. ROS/RNS mainly act through a set of reversible post-translational modifications of thiol residues on proteins among which nitrosylation and glutathionylation have emerged as key elements playing a major role in numerous fundamental cell processes and implicated in a broad spectrum of human diseases. Despite ROS and RNS are present in photosynthetic organisms, such modifications have been less studied. My project was to investigate in the green algae Chlamydomonas reinhardtii, the in vivo dynamics of nitrosylation and glutathionylation, using a combination of multidisciplinary approaches including proteomic, biochemistry and molecular biology. In response to nitrosative stress, 492 in vivo s-nitrosylated proteins and 392 sites of nitrosylation were identified by mass spectrometry. These proteins were found to participate in a wide range of biological processes and pathway such as photosynthesis, stress response and carbohydrate metabolism. Employing a similar strategy, analysis of glutathionylation in response to physiological stresses, specifically high light and heat stress revealed specific stress dependent targeted pathways. In a second part, the redox dependence of the underlying molecular mechanisms was examined for the cytoplasmic GAPDH and ICL, but also the chloroplastic TPI and PGK. This work has highlighted the existence of a strong interplay between these redox modifications. a complex redox network

Chlamydomonas reinhardtii

S-Nitrosylation

S-Glutathionylation

Biotin-Switch

SNOSID

Spectrométrie de masse

Régulation redox

Chlamydomonas reinhardtii

Mass spectrometry

572

Investigação de potenciais biomarcadores redox - um enfoque em aldeídos e seus produtos / Potential redox biomarkers investigation - focus on aldehydes and their products

Freitas, Florêncio Porto

23 May 2014

As espécies reativas são associadas a processos toxicológicos e fisiopatológicos, agindo como importantes mediadores, por exemplo, na sinalização celular. Diversas classes de compostos têm sido utilizadas como possíveis biomarcadores de estresse redox, destacando-se os aldeídos &#945;,&#946;-insaturados, capazes de alquilar biomoléculas como o DNA. Para evitar efeitos deletérios, estes aldeídos são detoxificados por glutationilação e posterior metabolização a derivados mercaptúricos. Contudo, avaliar o estado redox em sistemas biológicos ainda é tarefa bastante complexa, sendo a dificuldade em quantificar de forma prática e acurada os efeitos de sinalização e/ou dano molecular o maior problema dos estudos redox. Assim, o objetivo deste trabalho foi desenvolver métodos acurados e sensíveis de análise de potenciais biomarcadores de estresse redox, isto é: nucleosídeos modificados, aldeídos endógenos e exógenos, glutationa e produtos de glutationilação, e avaliá-los em sistemas modelos, celular e animal, e em humanos. A avaliação dos níveis urinários de três nucleosídeos modificados por metodologia de HPLC-MS/MS desenvolvida pelo grupo em moradores da cidade de São Paulo - região com poluição atmosférica - demonstrou aumento significativo de 1,N2-propanodGuo comparado aos moradores de região não poluída. Ademais, comprova-se pela primeira vez que células deficientes em reparo de ligações cruzadas apresentam níveis basais elevados de 1,N2-propanodGuo, em duas linhagens independentes, colocando este aduto como potencial mediador de carcinogênese em pacientes portadores de Anemia de Fanconi. Utilizando cérebro de ratos SOD1G93A (modelo de Esclerose Lateral Amiotrófica - ELA), verificou-se aumento de 50% nos níveis de 1,N2-propanodGuo e de 100% nos de 1,N6-&#949;dAdo em fase sintomática, sugerindo influência do conteúdo lipídico cerebral, levando a comprometimento do metabolismo neuronal e morte celular. O perfil de aldeídos determinado em cérebro de ratos SOD1G93A demonstrou aumento de trans-hexa-2-enal e trans,trans-hexa-2,4-dienal em fase assintomática e de trans,trans-deca-2,4-dienal em fase sintomática, não sendo observada nenhuma alteração na medula. Conhecer estas variações permite direcionar estudos de modificações em biomoléculas, além de a metodologia per se corroborar com as áreas de análises lipidômicas. Técnicas distintas e o preparo de amostras refletiram nos níveis de glutationa reduzida (GSH) e oxidada (GSSG) relatados. A técnica de espectrometria de massas mostrou-se mais precisa que a detecção eletroquímica; e a alquilação do grupo tiol minimizou interferências de matriz. Por análise de HPLC-UV/Vis-ESI-MS/MS, a quantificação de trans-4-hidroxi-2-nonenal (HNE) e crotonaldeido conjugados com GSH demonstrou não haver alterações em cérebro e medula de ratos SOD1G93A. Contudo, há formação esteroespecífica dos adutos de HNE in vivo. Ressalta-se que a metodologia desenvolvida é extremamente sensível e específica e permite análise simultânea de GSH, GSSG, cisteína, cistina e dos adutos supracitados, servindo para análise de outros adutos de glutationilação de aldeídos que possam ser importantes em doenças associadas a estresse redox. / Free radicais and oxidant species are associated with toxicological and pathophysiological processes. It has been demonstrated that production of reactive oxygen species may be involved in cell signaling and regulation. Several biomarkers of redox processes have been used, including adducts formed through the reaction of &#945;,&#946;-unsaturated aldehydes with biomolecules such as DNA. In order to avoid these deleterious effects, aldehydes are detoxified through glutathionylation and further metabolized to mercapturic derivatives. However, assessing the redox status in biological systems is still a very complex task, and the difficulty in practical and accurate quantification of signaling effects and/or molecular damage is a major problem in redox studies. The objective of this work was to develop accurate and sensitive methods for analysis of potential biomarkers of redox stress, i.e., modified nucleosides, endogenous and exogenous aldehydes, glutathione and glutathionylation products, and their evaluation in cell, animal model and humans. Evaluation of urinary levels of 1,N2-propano-2\'-deoxyguanosine (1,N2-propanodGuo), 1,N2-etheno-2\'-deoxyguanosine and 8-oxo-7,8-dihydro-2\'-deoxyguanosine in residents of São Paulo City - polluted region - showed a significant increase (p<0.05) in 1,N2-propanodGuo levels compared to residents of an unpolluted region by a HPLC-MS/MS methodology developed by the group. Moreover, it was proven, for the first time, that repair deficient cells have basal levels of 1,N2-propanodGuo higher than proficient cells in two independent strains, placing 1,N2-propanodGuo as a potential mediator of carcinogenesis in Fanconi Anemia patients. In an Amyotrophic Lateral Sclerosis (ALS) animal model (SOD1G93A rat) , a 50% increase in the levels of 1,N2-propanodGuo and 100% in the 1,N6-etheno-2\'-deoxyadenosine in brain tissue in the symptomatic phase was observed, suggesting that the high brain lipid content may play a role, leading to impairment of cell metabolism and neuronal cell death. There is an increase of trans-hex-2-enal and trans,trans-hexa-2,4-dienal in asymptomatic SOD1G93A rats brain and of trans,trans-deca-2,4-dienal in symptomatic ones. However, no alteration was observed in spinal cord. Our approach contributes to a better understanding of the aldehyde status in vivo and allows us to predict biomolecule modifications. The developed methodology can contribute to lipidomic studies. The use of different techniques and sample preparation reflected in the reported levels of reduced (GSH) and oxidized glutathione (GSSG). The mass spectrometry technique proved to be more accurate than the electrochemical one, and the use of thiol alkylating agent minimizes matrix interference. No changes were observed in the levels of the GSH conjugates of trans-4-hydroxy-2-nonenal (HNE) and crotonaldehyde in brain and spinal cord of SOD1G93A rats quantified by HPLC-UV/Vis-ESI-MS/MS compared to controls. However, it was observed stereospecific HNE adducts formation in vivo. Note that this methodology is extremely sensitive and specific and allows simultaneous analysis of GSH, GSSG, Cys, cystine and the aforementioned adducts, serving for analysis of other aldehyde-glutathionylation adducts that may be important in pathologies associated with stress redox.

Adutos de DNA

Adutos de glutationilação

Aldehydes

Aldeídos

Amyotrophic Lateral Sclerosis

Biomarcadores

Biomarkers

DNA adducts

Esclerose Lateral Amiotrófica

Estresse redox

Glutathionylation adducts

Stress redox

Vascular KATP Channel Modulation by S-Glutathionylation: A Novel Mechanism for Cellular Response to Oxidative Stress

Yang, Yang

29 April 2011

The KATP channels play an important role in the membrane excitability and vascular tone regulation. Previous studies indicate that the function of KATP channels is disrupted in oxidative stress seen in a variety of cardiovascular diseases, while the underlying mechanism remains unclear. Here, we demonstrate S-glutathionylation to be a modulation mechanism underlying the oxidant-mediated vascular KATP channel inhibition, the molecular basis for the channel inhibition and the alleviation of the channel inhibition by vasoactive intestinal peptide (VIP). We found that an exposure of isolated mesenteric rings to H2O2 impaired the KATP channel-mediated vascular dilation. In whole-cell recordings and inside-out patches, micromolar H2O2 or diamide caused a strong inhibition of the vascular KATP channel (Kir6.1/SUR2B) in the presence, but not in the absence, of glutathione (GSH), indicating S-glutathionylation. By co-expressions of Kir6.1 or Kir6.2 with SUR2B subunits, we found that the oxidant sensitivity of the KATP channel relied on the Kir6.1 subunit. Systematic mutational analysis revealed three cysteine residues (Cys43, Cys120 and Cys176) to be important. Among them, Cys176 was prominent, contributing to >80% oxidant sensitivity. Biochemical pull-down assay with biotinylated glutathione ethyl ester (BioGEE) showed that mutations of Cys176 impaired the oxidant-induced incorporation of GSH to the Kir6.1 subunit. Simulation modeling of Kir6.1 S-glutathionylation revealed that after incorporation to residue 176, the GSH moiety occupied a space between slide helix and two transmembrane helices. This prevented the necessary conformational change of the inner helix for channel gating, and retained the channel in its closed state. VIP is a potent vasodilator, and is shown to have protective role against oxidative stress. We found that the channel was strongly augmented by VIP and the channel activation relied on PKA phosphorylation. These results therefore indicate that 1) the vascular KATP channel is strongly inhibited in oxidative stress, 2) S-glutathionylation underlies the oxidant-mediated KATP channel inhibition, 3) Cys176 in the Kir6.1 subunit is the major site for S-glutathionylation, and 4) the Kir6.1/SUR2B channel is activated in a PKA-dependent manner by VIP that has been previously shown to alleviate oxidative stress.

Kir6.1

SUR2B

ATP-sensitive K+ channels

KATP channel

Vascular tone

Oxidative stress

S-glutathionylation

Structural modeling

Protein kinase A

Vasodilators

Vasoconstrictors

Vasoactive intestinal peptide

Reactive oxygen species.

Biology, general

Reprogrammation du métabolisme cyanobactérien de Synechocystis sp. PCC6803 pour une meilleure photoproduction d'hydrogène

Dutheil, Jérémy

26 April 2013

Le développement d'organismes photosynthétiques (piégeant le C02 en préservant l'eau douce et les terres cultivables sans ajout d'engrais) capables d'utiliser l'énergie solaire pour produire du dihydrogène (H2) passe par une meilleure compréhension du rôle de l'hydrogénase dans le métabolisme cyanobactérien. Le Laboratoire de Biologie et Biotechnologie des Cyanobatéries où j'ai travaillé durant ma thèse utilise une approche de "Biologie Intégrative" pour analyser le métabolisme qui conduit à la photo-production d'H2 chez la cyanobactérie modèle Synechocystis sp. PCC6803. Mon travail s'est focalisé sur l'analyse des réseaux de régulation amenant à la production d'H2 par l'hydrogénase bidirectionnelle à centre Ni-Fe (composée de 5 sous-unités) codée par l'opéron hox. Lorsque j'ai débuté ce travail, 2 activateurs de l'opéron hox avaient été identifiés: AbrB1 et LexA. Un article dont je suis co-premier auteur est paru (Dutheil et al. 2012 J Bact.), il décrit l'identification par l'utilisation de diverses approches d'un nouveau facteur de transcription de l'opéron hox: AbrB2 (homologue d'AbrB1). J'ai ainsi montré que l'expression de l'opéron hox était régulée négativement par AbrB2 en utilisant des fusions transcriptionnelles au gène rapporteur cat (introduites dans la souche sauvage ou dépourvues d'AbrB2) ainsi que des expériences de qRT-PCR. Par la technique de retard sur gel, nous avons confirmé une interaction directe entre AbrB2 et la région promotrice de l'opéron hox. En collaboration avec deux laboratoires du CEA, nous avons montré qu'un mutant dépourvu d'AbrB2 possède une activité hydrogénase augmentée, confirmant ainsi qu'AbrB2 est un régulateur négatif de la production d'H2.Dans un deuxième temps et en collaboration avec deux post-doc du laboratoire, nous avons mis en évidence le rôle de la cystéine unique d'AbrB2 dans le contrôle redox de son activité de régulation transcriptionnelle.Par la technique du retard sur gel,j'ai montré que cette cystéine n'est pas cruciale pour la fixation d'AbrB2 sur le promoteur hox, mais que par contre, la modification redox de celle-ci l'affecte de manière drastique. Dans le cadre de collaborations, nous avons identifié la modification post-traductionnelle qui peut avoir lieu sur la cysteine d'AbrB2 et il s'agit de la première fois, qu'un tel mécanisme de régulation est identifié pour cette famille de régulateur et chez les cyanobactéries. J'ai construit une souche portant l'allèle muté abrB2 Cys>Ser sur le chromosome et exprimé par le promoteur sauvage d'abrB2. J'ai montré grâce à cette construction et en utilisant diverses techniques (activité hydrogénase, qRT-PCR, Western blot et transcriptome) que la cystéine d'AbrB2 joue un rôle dans son activité de régulation qui est 60% moins bonne sur les 529 gènes cibles (directes ou indirectes) du régulateur muté. L'effet est également visible sur l'activité hydrogénase. Ce résultat a été complété par des tests de surexpression thermoinduite d'AbrB2 qui montrent que la mutation C34S affecte la stabilité de la protéine qui ne s'accumule pas autant que la sauvage dans les même conditions et dont la surexpression est létale. Un manuscrit dont je suis copremier auteur et décrivant ces résultats est en cours de finalisation et sera prochainement soumis à l'Intern. Journ. of Hydrogen Energy.L'ensemble de ces travaux permet de mieux comprendre les mécanismes biologiques liés à l'expression de l'hydrogénase bidirectionnelle et vont dans le sens d'un rôle important de celle-ci dans la détoxification des stress redox. La détermination des relations entre les différents régulateurs de l'hydrogénase et les possibles modifications post-traductionnelles de chacun de ces facteurs que j'ai mises en évidence traduisent une enzyme à la régulation complexe. Ces nouvelles connaissances permettent d'éclairer sous un angle nouveau la photoproduction d'H2 par les cyanobactéries et permettront peut-être d'élaborer des stratégies de production d'H2 efficace.

Cyanobactérie

Synechocystis sp. PCC6803

Hydrogène

Photoproduction

Régulation

Hydrogénase

AbrB

Biocarburants

Bioénergies

Glutathionylation

Stress oxydant

Investigação de potenciais biomarcadores redox - um enfoque em aldeídos e seus produtos / Potential redox biomarkers investigation - focus on aldehydes and their products

Florêncio Porto Freitas

23 May 2014

As espécies reativas são associadas a processos toxicológicos e fisiopatológicos, agindo como importantes mediadores, por exemplo, na sinalização celular. Diversas classes de compostos têm sido utilizadas como possíveis biomarcadores de estresse redox, destacando-se os aldeídos &#945;,&#946;-insaturados, capazes de alquilar biomoléculas como o DNA. Para evitar efeitos deletérios, estes aldeídos são detoxificados por glutationilação e posterior metabolização a derivados mercaptúricos. Contudo, avaliar o estado redox em sistemas biológicos ainda é tarefa bastante complexa, sendo a dificuldade em quantificar de forma prática e acurada os efeitos de sinalização e/ou dano molecular o maior problema dos estudos redox. Assim, o objetivo deste trabalho foi desenvolver métodos acurados e sensíveis de análise de potenciais biomarcadores de estresse redox, isto é: nucleosídeos modificados, aldeídos endógenos e exógenos, glutationa e produtos de glutationilação, e avaliá-los em sistemas modelos, celular e animal, e em humanos. A avaliação dos níveis urinários de três nucleosídeos modificados por metodologia de HPLC-MS/MS desenvolvida pelo grupo em moradores da cidade de São Paulo - região com poluição atmosférica - demonstrou aumento significativo de 1,N2-propanodGuo comparado aos moradores de região não poluída. Ademais, comprova-se pela primeira vez que células deficientes em reparo de ligações cruzadas apresentam níveis basais elevados de 1,N2-propanodGuo, em duas linhagens independentes, colocando este aduto como potencial mediador de carcinogênese em pacientes portadores de Anemia de Fanconi. Utilizando cérebro de ratos SOD1G93A (modelo de Esclerose Lateral Amiotrófica - ELA), verificou-se aumento de 50% nos níveis de 1,N2-propanodGuo e de 100% nos de 1,N6-&#949;dAdo em fase sintomática, sugerindo influência do conteúdo lipídico cerebral, levando a comprometimento do metabolismo neuronal e morte celular. O perfil de aldeídos determinado em cérebro de ratos SOD1G93A demonstrou aumento de trans-hexa-2-enal e trans,trans-hexa-2,4-dienal em fase assintomática e de trans,trans-deca-2,4-dienal em fase sintomática, não sendo observada nenhuma alteração na medula. Conhecer estas variações permite direcionar estudos de modificações em biomoléculas, além de a metodologia per se corroborar com as áreas de análises lipidômicas. Técnicas distintas e o preparo de amostras refletiram nos níveis de glutationa reduzida (GSH) e oxidada (GSSG) relatados. A técnica de espectrometria de massas mostrou-se mais precisa que a detecção eletroquímica; e a alquilação do grupo tiol minimizou interferências de matriz. Por análise de HPLC-UV/Vis-ESI-MS/MS, a quantificação de trans-4-hidroxi-2-nonenal (HNE) e crotonaldeido conjugados com GSH demonstrou não haver alterações em cérebro e medula de ratos SOD1G93A. Contudo, há formação esteroespecífica dos adutos de HNE in vivo. Ressalta-se que a metodologia desenvolvida é extremamente sensível e específica e permite análise simultânea de GSH, GSSG, cisteína, cistina e dos adutos supracitados, servindo para análise de outros adutos de glutationilação de aldeídos que possam ser importantes em doenças associadas a estresse redox. / Free radicais and oxidant species are associated with toxicological and pathophysiological processes. It has been demonstrated that production of reactive oxygen species may be involved in cell signaling and regulation. Several biomarkers of redox processes have been used, including adducts formed through the reaction of &#945;,&#946;-unsaturated aldehydes with biomolecules such as DNA. In order to avoid these deleterious effects, aldehydes are detoxified through glutathionylation and further metabolized to mercapturic derivatives. However, assessing the redox status in biological systems is still a very complex task, and the difficulty in practical and accurate quantification of signaling effects and/or molecular damage is a major problem in redox studies. The objective of this work was to develop accurate and sensitive methods for analysis of potential biomarkers of redox stress, i.e., modified nucleosides, endogenous and exogenous aldehydes, glutathione and glutathionylation products, and their evaluation in cell, animal model and humans. Evaluation of urinary levels of 1,N2-propano-2\'-deoxyguanosine (1,N2-propanodGuo), 1,N2-etheno-2\'-deoxyguanosine and 8-oxo-7,8-dihydro-2\'-deoxyguanosine in residents of São Paulo City - polluted region - showed a significant increase (p<0.05) in 1,N2-propanodGuo levels compared to residents of an unpolluted region by a HPLC-MS/MS methodology developed by the group. Moreover, it was proven, for the first time, that repair deficient cells have basal levels of 1,N2-propanodGuo higher than proficient cells in two independent strains, placing 1,N2-propanodGuo as a potential mediator of carcinogenesis in Fanconi Anemia patients. In an Amyotrophic Lateral Sclerosis (ALS) animal model (SOD1G93A rat) , a 50% increase in the levels of 1,N2-propanodGuo and 100% in the 1,N6-etheno-2\'-deoxyadenosine in brain tissue in the symptomatic phase was observed, suggesting that the high brain lipid content may play a role, leading to impairment of cell metabolism and neuronal cell death. There is an increase of trans-hex-2-enal and trans,trans-hexa-2,4-dienal in asymptomatic SOD1G93A rats brain and of trans,trans-deca-2,4-dienal in symptomatic ones. However, no alteration was observed in spinal cord. Our approach contributes to a better understanding of the aldehyde status in vivo and allows us to predict biomolecule modifications. The developed methodology can contribute to lipidomic studies. The use of different techniques and sample preparation reflected in the reported levels of reduced (GSH) and oxidized glutathione (GSSG). The mass spectrometry technique proved to be more accurate than the electrochemical one, and the use of thiol alkylating agent minimizes matrix interference. No changes were observed in the levels of the GSH conjugates of trans-4-hydroxy-2-nonenal (HNE) and crotonaldehyde in brain and spinal cord of SOD1G93A rats quantified by HPLC-UV/Vis-ESI-MS/MS compared to controls. However, it was observed stereospecific HNE adducts formation in vivo. Note that this methodology is extremely sensitive and specific and allows simultaneous analysis of GSH, GSSG, Cys, cystine and the aforementioned adducts, serving for analysis of other aldehyde-glutathionylation adducts that may be important in pathologies associated with stress redox.

Adutos de DNA

Adutos de glutationilação

Aldeídos

Biomarcadores

Esclerose Lateral Amiotrófica

Estresse redox

Aldehydes

Amyotrophic Lateral Sclerosis

Biomarkers

DNA adducts

Glutathionylation adducts

Stress redox